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![Page 1: 1 = -1 Perfect diamagnetism (Shielding of magnetic field) (Meissner effect) Insights into d-wave superconductivity from quantum cluster approaches André-Marie.](https://reader036.fdocuments.us/reader036/viewer/2022070413/5697bf9c1a28abf838c930cf/html5/thumbnails/1.jpg)
1
= -1
Perfect diamagnetism (Shielding of magnetic field)
(Meissner effect)
Insights into d-wave superconductivity from quantum cluster approaches
André-Marie Tremblay
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2
CuO2 planes
YBa2Cu3O7-
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3
Experimental phase diagram
n, electron density
Hole dopingElectron doping
Damascelli, Shen, Hussain, RMP 75, 473 (2003)
1.3 1.2 1.1 1.0 0.9 0.8 0.7 Optimal dopingOptimal doping
Stripes
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4
Ut
Simplest microscopic model for Cu O2 planes.
t’t’’
LSCO
H ij t i,j c i c j c j
c i Uinini
The Hubbard model
No mean-field factorization for d-wave superconductivity
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An effective model
Damascelli, Shen, Hussain, RMP 75, 473 (2003)
A. Macridin et al., cond-mat/0411092
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6
T
U
A(kF,)
U
A(kF,)
Weak vs strong coupling, n=1
Mott transition (DMFT, exact d = )U ~ 1.5W (W= 8t)
LHB UHB
tEffective model, Heisenberg: J = 4t2 /U
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U of order W at least, consider e and h doped
n, electron density Damascelli, Shen, Hussain, RMP 75, 473 (2003)
1.3 1.2 1.1 1.0 0.9 0.8 0.7
Mott Insulator
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Theoretical difficulties
• Low dimension – (quantum and thermal fluctuations)
• Large residual interactions (develop methods)– (Potential ~ Kinetic) – Expansion parameter? – Particle-wave?
• By now we should be as quantitative as possible!
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9
Theory without small parameter: How should we proceed?
• Identify important physical principles and laws to constrain non-perturbative approximation schemes– From weak coupling (kinetic)– From strong coupling (potential)
• Benchmark against “exact” (numerical) results.
• Check that weak and strong coupling approaches agree at intermediate coupling.
• Compare with experiment
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Mounting evidence for d-wave in Hubbard
• Weak coupling (U << W)– AF spin fluctuations mediated pairing with d-wave
symmetry• (Bourbonnais (86), Scalapino (86), Varma (86), Bickers et al.,
PRL 1989; Monthoux et al., PRL 1991; Scalapino, JLTP 1999, Kyung et al. (2003))
– RG → Groundstate d-wave superconducting• (Halboth, PRB 2000; Zanchi, PRB 2000, Berker 2005)
• Strong coupling (U >> W)– Early mean-field
• (Kotliar, Liu 1988, Inui et al. 1988)
– Finite size simulations of t-J model• Groundstate superconducting• (Sorella et al., PRL 2002; Poilblanc, Scalapino, PRB 2002)
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Th. Maier, M. Jarrell, Th. Pruschke, and J. KellerPhys. Rev. Lett. 85, 1524 (2000)T.A. Maier et al. PRL (2005)
DCA
Paramekanti, M. Randeria, and N. TrivediPhys. Rev. Lett. 87, 217002 (2001)
Variational
Numerical methods that show Tc at strong coupling
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Recent DCA results
• Finite-size studies U=4t– Maier et al., PRL 2005
• Structure of pairing Kernel– Maier et al., PRL 2006
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Bumsoo KyungSarma Kancharla
Marc-André Marois Pierre-Luc Lavertu
David Sénéchal
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Outside collaborators
Gabi Kotliar Marcello Civelli Massimo Capone
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Outline
• Methodology
• T = 0 phase diagram– Cellular Dynamical Mean-Field Theory– Anomalous superconductivity : Non-BCS
• Pseudogap
• A broader perspective on d-wave superconductivity
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Dynamical “variational” principle
tG G TrG0t 1 G 1 G Tr ln G
GG
tG
G G0t
1 G 1 0
G 1G0t
1
Luttinger and Ward 1960, Baym and Kadanoff (1961)
G + + + ….
H.F. if approximate by first order
FLEX higher order
Universality
Then is grand potentialRelated to dynamics (cf. Ritz)
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Another way to look at this (Potthoff)
t G Tr G Tr ln G0t 1
GG
tG G TrG0t 1 G 1 G Tr ln G
M. Potthoff, Eur. Phys. J. B 32, 429 (2003).
t F Tr ln G0t 1
Still stationary (chain rule)
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A dynamical “stationary” principleSFT : Self-energy Functional Theory
M. Potthoff, Eur. Phys. J. B 32, 429 (2003).
t t Tr ln G0 1 1 Tr ln G0
1 1.
With F Legendre transform of Luttinger-Ward funct.
t F Tr ln G0 1 1 #
For given interaction, F is a universal functional of no explicit dependence on H0(t). Hence, use solvable cluster H0(t’) to find F
Vary with respect to parameters of the cluster (including Weiss fields)
Variation of the self-energy, through parameters in H0(t’)
is stationary with respect to and equal to grand potential there
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Variational cluster perturbation theory and DMFT as special cases of SFT
C-DMFTV-DCA, Jarrell et al.
Georges Kotliar, PRB
(1992).M. Jarrell,
PRL (1992).A. Georges,
et al.RMP (1996).
M. Potthoff et al. PRL 91, 206402 (2003).
Savrasov, Kotliar,
PRB (2001)
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1D Hubbard model: Worst case scenario
Excellent agreement with exact results in both metallic and insulating limits
Capone, Civelli, SSK, Kotliar, Castellani PRB (2004)
Bolech, SSK, Kotliar PRB (2003)
Tests : CDMFT
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Tests: Sin-charge separation d = 1
U/t = 4, = 0.2, n = 0.89
Kyung, Kotliar, Tremblay, PRB 2006
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Test: CDMFT Recover d = infinity Mott transition
Parcollet, Biroli, Kotliar, PRL (2004)
/(4t)
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Comparison, TPSC-CDMFT, n=1, U=4t
TPSC CDMFT
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Outline
• Methodology
• T = 0 phase diagram– Cellular Dynamical Mean-Field Theory– Anomalous superconductivity : Non-BCS
• Pseudogap
• A broader perspective on d-wave superconductivity
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Outline
• T = 0 phase diagram– Cellular Dynamical Mean-Field Theory– Anomalous superconductivity : Non-BCS
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CDMFT + ED
Caffarel and Krauth, PRL (1994)
++
-
-
++
-
-
Sarma Kancharla
No Weiss field on the cluster!
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Effect of proximity to Mott (CDMFT )
Kancharla, Civelli, Capone, Kyung, Sénéchal, Kotliar, A-M.S.T. cond-mat/0508205
Sarma Kancharla
D-wave OP
t’= t’’=0
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Gap vs order parameter
Kancharla, Civelli, Capone, Kyung, Sénéchal, Kotliar, A-M.S.T. cond-mat/0508205
t’= t’’=0
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Competition AFM-dSC – using SFT
See also, Capone and Kotliar, cond-mat/0603227,
Macridin et al. DCA cond-mat/0411092
++
-
-
++
-
-
David Sénéchal
-
-
++
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Preliminary
n, electron density Damascelli, Shen, Hussain, RMP 75, 473 (2003)
1.3 1.2 1.1 1.0 0.9 0.8 0.7
t’ = -0.3 t, t’’ = 0.2 tU = 8t
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Outline
• Methodology
• T = 0 phase diagram– Cellular Dynamical Mean-Field Theory– Anomalous superconductivity : Non-BCS
• Pseudogap
• A broader perspective on d-wave superconductivity
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Outline
• Pseudogap
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Pseudogap (CDMFT)
Bumsoo KyungKyung, Kancharla, Sénéchal, A.-M.S. T, Civelli, Kotliar PRB (2006)
5% 5%
See also Sénéchal, AMT, PRL 92, 126401 (2004).
t’ = -0.3 t, t’’ = 0 tU = 8t
15%
10%
4%
Armitage et al.PRL 2003Ronning et al. PRB 2003
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Other properties of the pseudogap
Effect of U
Pseudogap size function of dopingSee also Sénéchal, AMT, PRL 92, 126401 (2004).
Kyung, Kancharla, Sénéchal, A.-M.S. T, Civelli, Kotliar PRB in press
Bumsoo Kyung
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Outline
• Methodology
• T = 0 phase diagram– Cellular Dynamical Mean-Field Theory– Anomalous superconductivity : Non-BCS
• Pseudogap
• A broader perspective on d-wave superconductivity
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Outline
• A broader perspective on d-wave superconductivity
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One-band Hubbard model for organics
Y. Shimizu, et al. Phys. Rev. Lett. 91, 107001(2003)
meV 50t meV 400 U
H. Kino + H. Fukuyama, J. Phys. Soc. Jpn 65 2158 (1996), R.H. McKenzie, Comments Condens Mat Phys. 18, 309 (1998)
t’/t ~ 0.6 - 1.1
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Layered organics (BEDT-X family)
( t’ / t )
n = 1
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Experimental phase diagram for Cl
F. Kagawa, K. Miyagawa, + K. Kanoda
PRB 69 (2004) +Nature 436 (2005)
Diagramme de phase (X=Cu[N(CN)2]Cl)S. Lefebvre et al. PRL 85, 5420 (2000), P. Limelette, et al. PRL 91 (2003)
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Perspective
U/t
t’/t
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Experimental phase diagram for Cl
F. Kagawa, K. Miyagawa, + K. Kanoda
PRB 69 (2004) +Nature 436 (2005)
Diagramme de phase (X=Cu[N(CN)2]Cl)S. Lefebvre et al. PRL 85, 5420 (2000), P. Limelette, et al. PRL 91 (2003)
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Mott transition (C-DMFT)
Parcollet, Biroli, Kotliar, PRL 92 (2004)Kyung, A.-M.S.T. (2006)
See also, Sénéchal, Sahebsara, cond-mat/0604057
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Mott transition (C-DMFT)
Kyung, A.-M.S.T. (2006)
See also, Sénéchal, Sahebsara, cond-mat/0604057
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Normal phase theoretical results for BEDT-X
PI
M
Kyung, A.-M.S.T. (2006)
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Experimental phase diagram for Cl
F. Kagawa, K. Miyagawa, + K. Kanoda
PRB 69 (2004) +Nature 436 (2005)
Diagramme de phase (X=Cu[N(CN)2]Cl)S. Lefebvre et al. PRL 85, 5420 (2000), P. Limelette, et al. PRL 91 (2003)
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Theoretical phase diagram BEDT
Y. Kurisaki, et al. Phys. Rev. Lett. 95, 177001(2005) Y. Shimizu, et al. Phys. Rev. Lett. 91, (2003)
X= Cu2(CN)3 (t’~ t)
Kyung, A.-M.S.T. cond-mat/0604377
OP
Sénéchal
Sénéchal, Sahebsara, cond-mat/0604057
Sahebsara
Kyung
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AFM and dSC order parameters for various t’/t
3.910.411.6Tc
1.060.840.68t’/t
Cu2(CN)3Cu(NCS)2Cu[N(CN)2]BrX
3.910.411.6Tc
1.060.840.68t’/t
Cu2(CN)3Cu(NCS)2Cu[N(CN)2]BrX
•Discontinuous jump
•Correlation between maximum order parameter and Tc
AF multiplied by 0.1
Kyung, A.-M.S.T. cond-mat/0604377
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d-wave
Kyung, A.-M.S.T. cond-mat/0604377
Sénéchal, Sahebsara, cond-mat/0604057
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Prediction of a new type of pressure behaviorSénéchal, Sahebsara, cond-mat/0604057
t’/t=0.8t
AF
SL
dSC•All transitions first order, except one
with dashed line
•Triple point, not SO(5)
Kyung, A.-M.S.T. cond-mat/0604377
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Références on layered organics
H. Morita et al., J. Phys. Soc. Jpn. 71, 2109 (2002).
J. Liu et al., Phys. Rev. Lett. 94, 127003 (2005).
S.S. Lee et al., Phys. Rev. Lett. 95, 036403 (2005).
B. Powell et al., Phys. Rev. Lett. 94, 047004 (2005).
J.Y. Gan et al., Phys. Rev. Lett. 94, 067005 (2005).
T. Watanabe et al., cond-mat/0602098.
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Summary - Conclusion
• Ground state of CuO2 planes (h-, e-doped)– V-CPT, (C-DMFT) give
overall ground state phase diagram with U at intermediate coupling.
– Effect of t’.
• Non-BCS feature– Order parameter
decreases towards n = 1 but gap increases.
– Max dSC scales like J.– Emerges from a
pseudogaped normal state (Z) (scales like t).
Sénéchal, Lavertu, Marois, A.-M.S.T., PRL, 2005 Kancharla, Civelli, Capone, Kyung, Sénéchal, Kotliar, A-M.S.T. cond-mat/0508205
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Conclusion
• Normal state (pseudogap in ARPES)– Strong and weak
coupling mechanism for pseudogap.
– CPT, TPSC, slave bosons suggests U ~ 6t near optimal doping for e-doped with slight variations of U with doping.
U=5.75
U=5.75
U=6.25
U=6.25
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Conclusion
• The Physics of High-temperature superconductors d-wave) is in the Hubbard model (with a very high probability).
• We are beginning to know how to squeeze it out of the model!
• Insight from other compounds• Numerical solutions … DCA (Jarrell, Maier) Variational QMC
(Paramekanti, Randeria, Trivedi).
• Role of mean-field theories (if possible) : Physics
• Lot more work to do.
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Conclusion, open problems
• Methodology:– Response functions– Tc (DCA + TPSC)– Variational principle– First principles– …
• Questions:– Why not 3d?– Best « mean-field » approach.– Manifestations of mechanism– Frustration vs nesting
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Bumsoo KyungSarma Kancharla
Marc-André Marois Pierre-Luc Lavertu
David Sénéchal
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Outside collaborators
Gabi Kotliar Marcello Civelli Massimo Capone
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Mammouth, série
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André-Marie Tremblay
Sponsors:
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Recent review articles
• A.-M.S. Tremblay, B. Kyung et D. Sénéchal, Low Temperature Physics (Fizika Nizkikh Temperatur), 32,561 (2006).
• T. Maier, M. Jarrell, T. Pruschke, and M. H. Hettler, Rev. Mod. Phys. 77, 1027 (2005)
• G. Kotliar, S. Y. Savrasov, K. Haule, V. S. Oudovenko, O. Parcollet, and C.A. Marianetti, cond-mat/0511085 v1 3 Nov 2005
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C’est fini…
enfin
C’est fini…
Merci
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MDC in CDMFT
Kancharla, Civelli, Capone, Kyung, Sénéchal, Kotliar, A-M.S.T. cond-mat/0508205
Ronning et al. PRB 200315%
10%
4%
Armitage et al.PRL 2003
4%
7% 7%
t’ = -0.3 t, t’’ = 0 tU = 8t
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AF and dSC order parameters, U = 8t, for various sizes
dSC
Sénéchal, Lavertu, Marois, A.-M.S.T., PRL, 2005
AF
1.3 1.2 1.1 1.0 0.9 0.8 0.7
t’ = -0.3 tt’’ = 0.2tU = 8t
Aichhorn, Arrigoni, Potthoff, Hanke, cond-mat/0511460
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Hole-doped (17%)
t’ = -0.3tt”= 0.2t
= 0.12t= 0.4t
Sénéchal, AMT, PRL 92, 126401 (2004).
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Hole-doped 17%, U=8t
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Electron-doped (17%)
t’ = -0.3tt”= 0.2t
= 0.12t= 0.4t
Sénéchal, AMT, PRL in press
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Electron-doped, 17%, U=8t